Patent application number | Description | Published |
20080232270 | Systems and arrangements for power conservation in network devices - Arrangements for a reduced power consumption network device are disclosed. In one embodiment, the device can join the network by communicating with a second network compatible device. After the network connection is made the device can place communication configuration or network status processing components in a low power mode until the device detects an indication of a status change in a communication from the second device. When the status change is detected the device can activate the status processing components that were placed in the low power mode and these processing components can process the status change information to change a communication configuration. Significant power saving can be achieved by placing such components into the sleep mode. | 09-25-2008 |
20120005501 | System and Method for Maintaining Connectivity to Remote Application Servers - A system and method for maintaining connectivity between a host system running an Always-On-Always-Connected (AOAC) application and an associated remote application server. The system further includes circuitry configured to establish a communication link between the host system and the remote application server. The circuitry is configured periodically transmit keep-alive messages to the remote application server after the host system transitions to and remains in a low-power state. The keep-alive messages are configured to maintain connectivity and presence of the AOAC application with the remote application server while the host system is in the low-power state. | 01-05-2012 |
20130007484 | System and Method for Determining Transmitting Frequency to Maintain Remote Application Server Connectivity - A system and method for maintaining connectivity between a host system running an Always-On-Always-Connected (AOAC) application and an associated remote application server includes determining a timing interval Ti for sending keep-alive messages. The timing interval Ti may be determined by selecting a value for a timeout (Ti) to a value between a maximum timeout (T | 01-03-2013 |
20130007495 | System and Method for Maintaining Connectivity to Remote Application Servers - A system and method for maintaining connectivity between a host system running an Always-On-Always-Connected (AOAC) application and an associated remote application server. The system further includes circuitry configured to establish a communication link between the host system and the remote application server. The circuitry is configured periodically transmit keep-alive messages to the remote application server after the host system transitions to and remains in a low-power state. The keep-alive messages are configured to maintain connectivity and presence of the AOAC application with the remote application server while the host system is in the low-power state. | 01-03-2013 |
20130198547 | System and Method for Maintaining Connectivity to Remote Application Servers - A system and method for maintaining connectivity between a host system running an Always-On-Always-Connected (AOAC) application and an associated remote application server. The system further includes circuitry configured to establish a communication link between the host system and the remote application server. The circuitry is configured periodically transmit keep-alive messages to the remote application server after the host system transitions to and remains in a low-power state. The keep-alive messages are configured to maintain connectivity and presence of the AOAC application with the remote application server while the host system is in the low-power state. | 08-01-2013 |
20140195198 | AGGREGATING AND PROCESSING DISTRIBUTED DATA ON ULTRA-VIOLET (UV) EXPOSURE MEASUREMENT - The present application discloses devices, systems and methods for establishing and utilizing a UV sensing network to harness the efficacy of distributed UV sensing to produce improved accuracy of UV exposure measurement using mobile devices. This may be accomplished by “crowd sourcing”, i.e. having multiple devices work collaboratively to measure the UV exposure. The collaboration can be implemented in many potential ways, such as, using a server based architecture where devices connect to a specific “UV measurements server” to provide measurements and receive aggregate estimated exposure levels, and/or by using a peer-to-peer architecture, where devices in a specific region creates a local ad-hoc UV sensing network. | 07-10-2014 |
20140207934 | COMPUTING SYSTEM WITH OFF-LOAD PROCESSING FOR NETWORKING RELATED TASKS - A method is described that comprises executing a service selection method on an off load processor of a computing system to select an available network service for handling traffic sent to/from a handheld device. The execution of the service selection method is performed while a main CPU of said computing system is in a low power state. | 07-24-2014 |
20160021143 | DEVICE FEDERATION - The present application is directed to device federation. Interaction between devices in a federation may be conducted using reduced security, while interactions with devices outside the federation may be conducted with a variable security up to a standard level of security that may be associated with a communication protocol. A device may comprise at least a communication module and a federation module. The federation module may include at least a relationship rules module having at least one rule based on relationships between devices and a link security control module to control the amount of security utilized during interaction based on the at least one rule. The link security control module may also control how a device may be inducted into a federation by, if necessary, providing qualification data to qualify the device for induction. | 01-21-2016 |